Achieving an effective utilization and exploitation of TIG welding arcs require a thorough understanding of the plasmaproperties and its physical processes. Through simultaneous solutions of the set of conservation equations for mass,momentum, energy and current, a mathematical model has been developed to predict the velocity, temperature,and current density distributions in argon welding arcs. The predicted temperature fields in arc regions, and thedistribution of current density and heat flux at the anode agree well with measurements reported in literatures. Thiswork could lay the foundation for developing a comprehensive model of the TIG welding process where a dynamic,two-way coupling between the welding arc and the weld pool surface is properly represented.
参考文献
| [1] | K C Hsu;K Etemadi;EPfender .[J].Journal of Applied Physics,1983,54(03):1293. |
| [2] | J Mckelliget;J Szekely .[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1986,17A(07):1139. |
| [3] | S Y Lee;S J Na .[J].Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture,1995,209:153. |
| [4] | T K Bose .[J].Plasma Chemistry and Processing,1990,10(02):189. |
| [5] | W M Rosenhow;J.P.Hartnett.Handbook ofHeat Transfer[M].McGraw-Hill,New York,N.Y,1973 |
| [6] | M L Lin;T W Eagar .[J].Metallurgical and Materials Transactions B:Process Metallurgy and Materials Processing Science,1986,17B(09):601. |
| [7] | K C Hsu;E Pfender .[J].Journal of Applied Physics,1983,54(08):4359. |
| [8] | O H Nestor .[J].Journal of Applied Physics,1962,33(05):1638. |
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